Section 1.11 References
Subsection 1.11.1 Bibliography
References will be in AMS style. Please use your greenhouse-gas in the label name so that we can avoid collisions between similarly named references in multiple modules. Feel free to use a mixture of peer-reviewed and non-peer-reveiewed references.
[1]
A. Author, B. Second-Author, Title of Reference, Publisher, Place of Publication, year, DOI,
http://citation.web.page
.[2]
A. Author, , Abbreviated Journal Title, Volume (year) page--page,
http://citation.web.page
.[3]
A. Author, Publisher of Information, Title of Webpage (date),
http://citation.web.page
.[4]
Worlddata.info, Ranking of countries by greenhouse gas emissions (06-07-2021),
https://www.worlddata.info/greenhouse-gas-by-country.php
.[5]
American Community Survey 2019, Tenure by Vehicles Available (06-25-2021),
https://data.census.gov/cedsci/table?q=vehicle%20access&tid=ACSDT1Y2019.B25044&hidePreview=true
.[6]
Our World in Data, CO2 Emissions per capita vs GDP per capita,
https://ourworldindata.org/grapher/co2-emissions-vs-gdp
.[7]
National Centers for Environmental Information at the National Oceanic and Atmospheric Administration, Climate at a Glance: Global Time Series,
https://www.ncdc.noaa.gov/cag/global/time-series/globe/land_ocean/ytd/12/1880-2019
.[8]
World Bank, CO2 emissions (kt),
https://data.worldbank.org/indicator/EN.ATM.CO2E.KT
.[9]
Office for National Statistics, Number of Vehicls Per Household,
https://www.ons.gov.uk/peoplepopulationandcommunity/personalandhouseholdfinances/incomeandwealth/adhocs/009922numberofvehiclesperhousehold
.[10]
A. Lipponen, CO2 Emissions, GDP & temperature by country 1961-2014,
https://www.flickr.com/photos/150411108@N06/32308286658/in/album-72157684433789793/
.[11]
A. Lipponen, Temperature Anomalies by Country 1880-2017,
https://www.flickr.com/photos/150411108@N06/43350961005/in/photostream/
.[12]
R. Rohde, Map of Greenhouse Gas Emissions per Person,
https://berkeleyearth.org/dv/map-of-greenhouse-gas-emissions-per-person/
.[13]
C. Chafe, H. Gordon, K. Pennington, K. Snow, V. Vasquez, D. Venton, The 1200-year Climate Podcast in Detail,
https://chrischafe.net/the-1200-year-climate-podcast-in-detail/
.[14]
British Geological Survey, United Kingdom Research Institute, What Causes the Earth's Climate to Change?
https://www.bgs.ac.uk/discovering-geology/climate-change/what-causes-the-earths-climate-to-change/
.[15]
C. Bardeen, R. Garcia, O. Toon, A. Conley, On transient climate change at the Cretaceous−Paleogene boundary due to atmospheric soot injections, PNAS 114 (36) (2017) E7415-E7424
https://www.bgs.ac.uk/discovering-geology/climate-change/what-causes-the-earths-climate-to-change/
.[15]
C. Bardeen, R. Garcia, O. Toon, A. Conley, On transient climate change at the Cretaceous−Paleogene boundary due to atmospheric soot injections, PNAS 114 (36) (2017) E7415-E7424
https://www.pnas.org/content/114/36/E7415
[16]
IPCC, 2007: Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change [Solomon, S., D. Qin, M. Manning, Z. Chen, M. Marquis, K.B. Averyt, M.Tignor and H.L. Miller (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.
[17]
World of Change: Global Temperatures
https://earthobservatory.nasa.gov/world-of-change/global-temperatures
.[18]
Causes of Global Warming, Explained.
https://www.nationalgeographic.com/environment/article/global-warming-causes
.[19]
Weart, S. The Discovery of Global Warming.
https://history.aip.org/climate/co2.htm
.[20]
Sharp, T. What is the Temperature of the Moon?
https://www.space.com/18175-moon-temperature.html
.[21]
Earth Science Communications Team at NASA's Jet Propulsion Laboratory. Climate Change: How do we Know?
https://climate.nasa.gov/evidence/
[22]
C. Román-Palacios, J. Wiens. Recent responses to climate change reveal the drivers of species extinction and survival. PNAS 117 (8) (2020) P.4211-4217
https://www.pnas.org/content/117/8/4211
[23]
D. Ray, P. West, M. Clark, J. Gerber, A. Prishchepov, S. Chatterjee. Climate change has likely already affected global food production. PLoS ONE 14(5): e0217148. (2019)
https://doi.org/10.1371/journal.pone.0217148
.[24]
United Nations High Commission on Refugees (UNHCR). Displaced on the frontlines of the climate emergency
https://storymaps.arcgis.com/stories/065d18218b654c798ae9f360a626d903
.[25]
Census Bureau. 2019 U.S. Population Estimates Continue to Show the Nation’s Growth Is Slowing.
https://www.census.gov/newsroom/press-releases/2019/popest-nation.html
[26]
Environmental Protection Agency. Inventory of U.S. Greenhouse Gas Emissions and Sinks
https://www.epa.gov/ghgemissions/inventory-us-greenhouse-gas-emissions-and-sinks
[27]
M. Grant, K. Larsen. Preliminary China Emissions Estimates for 2019.
https://rhg.com/research/preliminary-china-emissions-2019/
[28]
Worldometer. China Population.
https://www.worldometers.info/world-population/china-population/
[29]
U.S. Energy Information Administration. How much oil is consumed in the United States.
https://www.eia.gov/tools/faqs/faq.php?id=33&t=6
[30]
NASA. About Aqua.
https://aqua.nasa.gov/content/about-aqua
[31]
H. Ritchie, Who has contributed most to global CO2 emissions?
https://ourworldindata.org/contributed-most-global-co2
.Subsection 1.11.2 Image Descriptions
- A graph with years from 400,000 years ago on the horizontal axis and atmospheric CO2 in parts per million (ppm) on the vertical axis. The graph shows that atmospheric CO2 has fluctuated between about 180 and 300 ppm for the last 400,000 years, but has soared from less than 300 ppm to over 400 ppm in the last century.
- A graph with the number of vehicles on the horizontal axis and millions of households on the vertical axis. For each number of vehicles, a rectangle is drawn with height equal to the number of households with that many vehicles. The data displayed is from the frequency table given above.
- A graph with the per capita CO2 emissions in tons per person on the horizontal axis and number of countries on the vertical axis. For each range of emissions levels, a rectangle is drawn with height equal to the number of countries that produce that level of emissions. The data displayed is from the frequency table given above.
- A graph with the names of countries on the horizontal axis and millions of equivalent tons of CO2 on the vertical axis. For each country, a rectangle is drawn with the height of the rectangle corresponding to the methane emissions of each country. The data displayed is from the table given above.
- A circle with wedges representing countries with emissions in the given ranges. One wedge is very large, relative to the others, and several wedges are only 0 or 1 percent of the circle. The data displayed is from the table given above.
- A graph with GDP, in 2011 dollars per person, on the horizontal axis and CO2 emissions, in tons per person, on the vertical axis. The values for 165 different nations are represented by dots on the graph, with the horizontal position of the dot corresponding to GDP and the vertical position of the dot corresponding to CO2 emissions. The data shown in the graph is in gdp and co2 emissions for all countries in 2018 [Excel Spreadsheet].
- A graph with years on the horizontal axis and the global mean temperature anomaly, in degrees celsius difference from the mean temperature from 1901-2000 on the vertical axis. The value for each year is represented by a dot on the graph, with the horizontal position of the dot corresponding to the year and the vertical position of the dot corresponding to global mean temperature anomaly. The data shown in the graph is in global mean temperature anomalies from 1880 to 2019 [Excel Spreadsheet].
- A graph with years on the horizontal axis and total co2 emissions in gigatons on the vertical axis. The values for the USA and China from 1960 to 2018 are represented as points on the graph, with the horizontal position determined by year and the vertical position determined by emissions. The data shown in the graph is in overall co2 emissions for the USA and China from 1960 to 2018 [Excel Spreadsheet].
- A graph with years on the horizontal axis and total co2 emissions in gigatons on the vertical axis. The values for the USA and Singapore from 1960 to 2018 are represented as points on the graph, with the horizontal position determined by year and the vertical position determined by emissions. The data shown in the graph is in overall co2 emissions for the USA and Singapore from 1960 to 2018 [Excel Spreadsheet].
- A graph with years on the horizontal axis and total co2 emissions in kilotons on the vertical axis. The values for Singapore from 1960 to 2018 are represented as points on the graph, with the horizontal position determined by year and the vertical position determined by emissions. The data shown in the graph is in overall co2 emissions for the USA and Singapore from 1960 to 2018 [Excel Spreadsheet].
- A graph with years on the horizontal axis and total co2 emissions in kilotons on the vertical axis. The values for the United States from 1960 to 2018 are represented as points on the graph, with the horizontal position determined by year and the vertical position determined by emissions. The data shown in the graph is in overall co2 emissions for the USA and Singapore from 1960 to 2018 [Excel Spreadsheet].
- A graph with number of vehicles on the horizontal access and percentage of households owning that many vehicles on the vertical axis. For each number of vehicles, there is a bar representing the percentage of Great Britain households and a bar representing the percentage of United States households. The height of the bar is determined by the percentage. The data contained in the graph is shown here:
Table 1.11.1. Percentage of Households Number of vehicles Great Britain United States 0 25% 9% 1 43% 32% 2 23% 37% 3 6% 15% 4 2% 5% 5+ 1% 2% - A circle divided into wedges, with each wedge proportional in size to the percentage of the United States population who own 0, 1, 2, 3, 4, or 5 or more vehicles. The percentages also appear on the graph. The data shown in the chart is the United States data from the table below:
Table 1.11.2. Percentage of Households Number of vehicles Great Britain United States 0 25% 9% 1 43% 32% 2 23% 37% 3 6% 15% 4 2% 5% 5+ 1% 2% - A circle divided into wedges, with each wedge proportional in size to the percentage of the Great Britain population who own 0, 1, 2, 3, 4, or 5 or more vehicles. The percentages also appear on the graph. The data shown in the chart is the Great Britain data from the table below:
Table 1.11.3. Percentage of Households Number of vehicles Great Britain United States 0 25% 9% 1 43% 32% 2 23% 37% 3 6% 15% 4 2% 5% 5+ 1% 2% - Two bars, one for the United States and one for Great Britain. Each bar is divided proportionally using the number of households with 0, 1, 2, 3, 4, or 5 or more vehicles in each country. The data shown in the chart is the data in this table:
Table 1.11.4. Percentage of Households Number of vehicles Great Britain United States 0 25% 9% 1 43% 32% 2 23% 37% 3 6% 15% 4 2% 5% 5+ 1% 2% - A stacked 100% line chart, with years from 1750 to present on the x-axis, and percentage of global emissions in that year on the y-axis. Different colors denote the different regions of the world. The data shown in the chart is available at [1.11.1.31]